HV discharges triggered by dual- and triple-frequency laser filaments

We study the use of frequency upconversion schemes of near-IR picosecond laser pulses and compare their ability to guide and trigger electric discharges through filamentation in air. Upconversion, such as Second Harmonic Generation, is favorable for triggering electric discharges for given amount of...

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Veröffentlicht in:	arXiv.org 2019-04
Hauptverfasser:	Produit, Thomas, Walch, Pierre, Schimmel, Guillaume, Mahieu, Benoît, Herkommer, Clemens, Jung, Robert, Metzger, Thomas, Michel, Knut, Yves-Bernard, André, Mysyrowicz, André, Houard, Aurélien, Kasparian, Jérôme, Wolf, Jean-Pierre
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Sprache:	eng
Schlagworte:	Electric discharges Energy consumption Filaments Lasers Physics - Optics Physics - Plasma Physics Second harmonic generation Upconversion
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creator	Produit, Thomas Walch, Pierre Schimmel, Guillaume Mahieu, Benoît Herkommer, Clemens Jung, Robert Metzger, Thomas Michel, Knut Yves-Bernard, André Mysyrowicz, André Houard, Aurélien Kasparian, Jérôme Wolf, Jean-Pierre
description	We study the use of frequency upconversion schemes of near-IR picosecond laser pulses and compare their ability to guide and trigger electric discharges through filamentation in air. Upconversion, such as Second Harmonic Generation, is favorable for triggering electric discharges for given amount of available laser energy, even taking into account the losses inherent to frequency conversion. We focus on the practical question of optimizing the use of energy from a given available laser system and the potential advantage to use frequency conversion schemes.
doi_str_mv	10.48550/arxiv.1904.07030
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subjects	Electric discharges Energy consumption Filaments Lasers Physics - Optics Physics - Plasma Physics Second harmonic generation Upconversion
title	HV discharges triggered by dual- and triple-frequency laser filaments
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